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3. Active proton efflux, nutrient retention and boron-bridging of pectin are related to greater tolerance of proton toxicity in the roots of two Erica species

Author

Rossini Oliva, S., Mingorance, M. Dolores, Sanhueza, D., Fry, Stephen C., Leidi, Eduardo O., Universidad de Sevilla. Departamento de Biología Vegetal y Ecología, Ministerio de Ciencia e Innovación (MICIN). España, Ministerio de Ciencia e Innovación (España), and Comisión Nacional de Investigación Científica y Tecnológica (Chile)

Subjects
E. australis, Physiology, Acidity tolerance, Mineral nutrition, Plant Science, H+ toxicity, H toxicity, Erica andevalensis, Genetics, Calcium, Magnesium, RG-II, Boron
Abstract

36 páginas.-- 6 figuras.-- 2 tablas.-- 50 referencias.-- Appendix A. The supplementary data related to this article is https://doi.org/10.1016/j.plaphy.2018.02.029, Background and aims: Tolerance to soil acidity was studied in two species of Ericaceae that grow in mine-contaminated soils (S Portugal, SW Spain) to find out if there are interspecific variations in H+ tolerance which might be related to their particular location. Methods: Tolerance to H+ toxicity was tested in nutrient solutions using seeds collected in SW Spain. Plant growth and nutrient contents in leaves, stems and roots were determined. Viability tests and proton exchange were studied in roots exposed, short-term, to acidic conditions. Membrane ATPase activity and the cell-wall pectic polysaccharide domain rhamnogalacturonan-II (RG-II) were analysed to find out interspecific differences. Results: Variation in survival, growth and mineral composition was found between species. The H+-tolerant species (Erica andevalensis) showed greater concentration of nutrients than E. australis. Very low pH (pH 2) produced a significant loss of root nutrients (K, P, Mg) in the sensitive species. Root ATPase activity was slightly higher in the tolerant species with a correspondingly greater H+ efflux capacity. In both species, the great majority of the RG-II domains were in their boron-bridged dimeric form. However, shifting to a medium of pH 2 caused some of the boron bridges to break in the sensitive species. Conclusions: Variation in elements linked to the cell wall-membrane complex and the stability of their components (RG-II, H+-ATPases) are crucial for acid stress tolerance. Thus, by maintaining root cell structure, active proton efflux avoided toxic H+ build-up in the cytoplasm and supported greater nutrient acquisition in H+-tolerant species., This work was partially granted by MICINN contract CGL2006/02860 and by Fundación Areces. SCF thanks the BBSRC (UK; grant reference BB/H000690/1) and DS thanks the Comisión Nacional de Investigación Científica y Tecnológia (Conicyt; Chile) for financial support.

Published
2018
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5. Active proton efflux, nutrient retention and boron-bridging of pectin are related to greater tolerance of proton toxicity in the roots of two Erica species

Author

Ministerio de Ciencia e Innovación (España), Comisión Nacional de Investigación Científica y Tecnológica (Chile), Rossini Oliva, S., Mingorance, M. Dolores, Sanhueza, D., Fry, Stephen C., Leidi, Eduardo O., Ministerio de Ciencia e Innovación (España), Comisión Nacional de Investigación Científica y Tecnológica (Chile), Rossini Oliva, S., Mingorance, M. Dolores, Sanhueza, D., Fry, Stephen C., and Leidi, Eduardo O.

Abstract

Background and aims: Tolerance to soil acidity was studied in two species of Ericaceae that grow in mine-contaminated soils (S Portugal, SW Spain) to find out if there are interspecific variations in H+ tolerance which might be related to their particular location. Methods: Tolerance to H+ toxicity was tested in nutrient solutions using seeds collected in SW Spain. Plant growth and nutrient contents in leaves, stems and roots were determined. Viability tests and proton exchange were studied in roots exposed, short-term, to acidic conditions. Membrane ATPase activity and the cell-wall pectic polysaccharide domain rhamnogalacturonan-II (RG-II) were analysed to find out interspecific differences. Results: Variation in survival, growth and mineral composition was found between species. The H+-tolerant species (Erica andevalensis) showed greater concentration of nutrients than E. australis. Very low pH (pH 2) produced a significant loss of root nutrients (K, P, Mg) in the sensitive species. Root ATPase activity was slightly higher in the tolerant species with a correspondingly greater H+ efflux capacity. In both species, the great majority of the RG-II domains were in their boron-bridged dimeric form. However, shifting to a medium of pH 2 caused some of the boron bridges to break in the sensitive species. Conclusions: Variation in elements linked to the cell wall-membrane complex and the stability of their components (RG-II, H+-ATPases) are crucial for acid stress tolerance. Thus, by maintaining root cell structure, active proton efflux avoided toxic H+ build-up in the cytoplasm and supported greater nutrient acquisition in H+-tolerant species.

Published
2018

6. Global and local environmental changes as drivers of Buruli ulcer emergence [+ erratum in Emerging Microbes and Infections.2017,6, e34]

Author

Combe, Marine, Velvin, C. J., Morris, A., Garchitorena, Andres, Carolan, K., Sanhueza, D., Roche, Benjamin, Couppie, P., Guégan, Jean-François, and Gozlan, Rodolphe

Subjects
generalist pathogen, Mycobacterium ulcerans, aquatic ecosystem, tropical, sense organs, skin and connective tissue diseases, climate
Abstract

Many emerging infectious diseases are caused by generalist pathogens that infect and transmit via multiple host species with multiple dissemination routes, thus confounding the understanding of pathogen transmission pathways from wildlife reservoirs to humans. The emergence of these pathogens in human populations has frequently been associated with global changes, such as socio-economic, climate or biodiversity modifications, by allowing generalist pathogens to invade and persist in new ecological niches, infect new host species, and thus change the nature of transmission pathways. Using the case of Buruli ulcer disease, we review how land-use changes, climatic patterns and biodiversity alterations contribute to disease emergence in many parts of the world. Here we clearly show that Mycobacterium ulcerans is an environmental pathogen characterized by multi-host transmission dynamics and that its infectious pathways to humans rely on the local effects of global environmental changes. We show that the interplay between habitat changes (for example, deforestation and agricultural land-use changes) and climatic patterns (for example, rainfall events), applied in a local context, can lead to abiotic environmental changes and functional changes in local biodiversity that favor the pathogen's prevalence in the environment and may explain disease emergence.

Published
2017

9. UDP-Uronic acid transporters are important providing galacturonic acid and arabinose, but not xylose, into the cell wall

Author

Suzanna Saez-Aguayo, Henry Temple, Carsten Rautengarten, Sanhueza, D., Ejsmentewicz, T., Sandoval-Ibañez, O., Doñas, D., Parra, J. P., Ebert, B., Arnaud Lehner, Jean-Claude Mollet, Dupree, Paul P., Scheller, Henrik V., Heazlewood, J. L., Reyes, F. C., Ariel Orellana, Universidad Andrés Bello [Santiago] (UNAB), University of Melbourne, Laboratoire de Glycobiologie et Matrice Extracellulaire Végétale (Glyco-MEV), Université de Rouen Normandie (UNIROUEN), Normandie Université (NU)-Normandie Université (NU), University of Cambridge [UK] (CAM), and Lehner, Arnaud

Subjects
[CHIM.POLY] Chemical Sciences/Polymers, [SDV.BDD.GAM] Life Sciences [q-bio]/Development Biology/Gametogenesis, [SDV.BIO]Life Sciences [q-bio]/Biotechnology, [SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, [SDV.BBM.MN]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular Networks [q-bio.MN], [SDV.BC.BC]Life Sciences [q-bio]/Cellular Biology/Subcellular Processes [q-bio.SC], [SDV.BC.IC] Life Sciences [q-bio]/Cellular Biology/Cell Behavior [q-bio.CB], [SDV.BBM.BM] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, [SDV.BIO] Life Sciences [q-bio]/Biotechnology, [SDV.BV.PEP]Life Sciences [q-bio]/Vegetal Biology/Phytopathology and phytopharmacy, [SDV.BV.AP]Life Sciences [q-bio]/Vegetal Biology/Plant breeding, [CHIM.POLY]Chemical Sciences/Polymers, [SDV.BBM.MN] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular Networks [q-bio.MN], [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], [SDV.BC.IC]Life Sciences [q-bio]/Cellular Biology/Cell Behavior [q-bio.CB], [SDV.BC.BC] Life Sciences [q-bio]/Cellular Biology/Subcellular Processes [q-bio.SC], [SDV.BBM.GTP] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], [SDV.BV.AP] Life Sciences [q-bio]/Vegetal Biology/Plant breeding, [SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biochemistry [q-bio.BM], [SDV.BBM.BC] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biochemistry [q-bio.BM], [SDV.BV.PEP] Life Sciences [q-bio]/Vegetal Biology/Phytopathology and phytopharmacy, ComputingMilieux_MISCELLANEOUS, [SDV.BDD.GAM]Life Sciences [q-bio]/Development Biology/Gametogenesis
Abstract

International audience

10. Deforestation-driven food-web collapse linked to emerging tropical infectious disease, Mycobacterium ulcerans.

Author

Morris, Aaron, Guegan, J.F., Andreou, Demetra, Marsollier, L., Carolan, K., Le Croller, M., Sanhueza, D., Gozlan, Rodolphe Elie, Morris, Aaron, Guegan, J.F., Andreou, Demetra, Marsollier, L., Carolan, K., Le Croller, M., Sanhueza, D., and Gozlan, Rodolphe Elie

Abstract

Generalist microorganisms are the agents of many emerging infectious diseases (EIDs), but their natural life cycles are difficult to predict due to the multiplicity of potential hosts and environmental reservoirs. Among 250 known human EIDs, many have been traced to tropical rain forests and specifically freshwater aquatic systems, which act as an interface between microbe-rich sediments or substrates and terrestrial habitats. Along with the rapid urbanization of developing countries, population encroachment, deforestation, and land-use modifications are expected to increase the risk of EID outbreaks. We show that the freshwater food-web collapse driven by land-use change has a nonlinear effect on the abundance of preferential hosts of a generalist bacterial pathogen, Mycobacterium ulcerans. This leads to an increase of the pathogen within systems at certain levels of environmental disturbance. The complex link between aquatic, terrestrial, and EID processes highlights the potential importance of species community composition and structure and species life history traits in disease risk estimation and mapping. Mechanisms such as the one shown here are also central in predicting how human-induced environmental change, for example, deforestation and changes in land use, may drive emergence.

11. First Detection of Mycobacterium ulcerans DNA in Environmental Samples from South America

Author

Morris, Aaron, Andreou, Demetra, Gozlan, Rodolphe Elie, Sanhueza, D., Ruffine, R., Guégan, J-F., Marion, E., Marsollier, L., Couppié, P., Morris, Aaron, Andreou, Demetra, Gozlan, Rodolphe Elie, Sanhueza, D., Ruffine, R., Guégan, J-F., Marion, E., Marsollier, L., and Couppié, P.

Abstract

The occurrences of many environmentally-persistent and zoonotic infections are driven by ecosystem changes, which in turn are underpinned by land-use modifications that alter the governance of pathogen, biodiversity and human interactions. Our current understanding of these ecological changes on disease emergence however remains limited. Buruli ulcer is an emerging human skin disease caused by the mycobacterium, Mycobacterium ulcerans, for which the exact route of infection remains unclear. It can have a devastating impact on its human host, causing extensive necrosis of the skin and underlying tissue, often leading to permanent disability. The mycobacterium is associated with tropical aquatic environments and incidences of the disease are significantly higher on floodplains and where there is an increase of human aquatic activities. Although the disease has been previously diagnosed in South America, until now the presence of M. ulcerans DNA in the wild has only been identified in Australia where there have been significant outbreaks and in western and central regions of Africa where the disease is persistent. Here for the first time, we have identified the presence of the aetiological agent's DNA in environmental samples from South America. The DNA was positively identified using Real-time Polymerase Chain Reaction (PCR) on 163 environmental samples, taken from 23 freshwater bodies in French Guiana (Southern America), using primers for both IS2404 and for the ketoreductase-B domain of the M. ulcerans mycolactone polyketide synthase genes (KR). Five samples out of 163 were positive for both primers from three different water bodies. A further nine sites had low levels of IS2404 close to a standard CT of 35 and could potentially harbour M. ulcerans. The majority of our positive samples (8/14) came from filtered water. These results also reveal the Sinnamary River as a potential source of infection to humans. © 2014 Morris et al.

12. Correction: Food and family care during the COVID-19 pandemic: A study of women's domestic workload during the first wave in Chile.

Author

Llanos N, Iglesias L, Gálvez Espinoza P, Cuevas C, and Sanhueza D

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0301038.]., (Copyright: © 2024 Llanos et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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13. Unraveling cell wall polysaccharides during blueberry ripening: insights into the roles of rhamnogalacturonan-I and arabinogalactan proteins in fruit firmness.

Author

Sanhueza D, Balic-Norambuena I, Sepúlveda-Orellana P, Siña-López S, Moreno AA, Moya-León MA, and Saez-Aguayo S

Abstract

Blueberries ( Vaccinium corymbosum ) undergo significant texture changes during development and ripening, notably a consistent decrease in firmness, which affects fruit quality, consumer preference, transportability, and shelf life. This study examined the composition and structural modifications of the cell wall in five commercially available blueberry varieties with differing firmness levels at harvest. Our approach integrated various biochemical techniques for a comprehensive analysis of cell wall components to elucidate firmness differences at the harvest stage. One of the conclusions was the relationship between a low degree of pectin methylesterification and the presence of increased egg-box structures, which correlated with increased firmness. The data suggest that low-abundance pectins in blueberry cell walls, such as rhamnogalacturonan-I participate in firmness modulation through their side branches or by linking to arabinogalactan proteins. Additionally, the xyloglucan structure can be one of the determinants of fruit firmness. Although, this work provides a broad insight into the relationship between cell wall composition and firmness in blueberry, a more detailed analysis, specifically focusing on pectin and hemicelluloses, would be of significant value., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Sanhueza, Balic-Norambuena, Sepúlveda-Orellana, Siña-López, Moreno, Moya-León and Saez-Aguayo.)

Published
2024
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14. Mucilage extracted from Chilean papaya seeds is enriched with homogalacturonan domains.

Author

Sanhueza D, Sepúlveda-Orellana P, Salazar-Carrasco A, Zúñiga S, Herrera R, Moya-León MA, and Saez-Aguayo S

Abstract

Chilean papaya, also known as mountain papaya ( Vasconcellea pubescens ), is a fruit valued for its nutritional value and pleasant fragrance. The oblong fruit, featuring five ridges and a seed-filled mucilage cavity, is typically consumed cooked due to its high protease content. The mucilage and the seeds are usually discarded as byproducts. This study analyzed the biochemical composition of mountain papaya seed mucilage using methods such as HPAEC and immunolabeling. Results revealed that papaya seeds yield nearly 20% of their weight in mucilage polysaccharides, which can be separated into soluble and adherent layers. The mucilage exhibited a high proportion of acidic sugars, indicating that homogalacturonan (HG) is the predominant domain. It also contained other domains like rhamnogalacturonan-I (RG-I) and hemicelluloses, predominantly xyloglucan. The HG-rich mucilage, currently considered waste, emerges as a promising source of polysaccharides, indicating its multifaceted utility in various industrial applications., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Sanhueza, Sepúlveda-Orellana, Salazar-Carrasco, Zúñiga, Herrera, Moya-León and Saez-Aguayo.)

Published
2024
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15. Food and family care during the COVID-19 pandemic: A study of women's domestic workload during the first wave in Chile.

Author

Llanos N, Iglesias L, Gálvez Espinoza P, Cuevas C, and Sanhueza D

Subjects
Humans, Female, Chile epidemiology, Adult, Middle Aged, Cross-Sectional Studies, SARS-CoV-2 isolation & purification, Surveys and Questionnaires, Young Adult, Household Work, Family, Aged, Food, COVID-19 epidemiology, COVID-19 psychology, Workload, Pandemics
Abstract

This study aimed to explore women's perceptions of domestic work related to food and family care during the first wave of the COVID-19 pandemic in Chile and its association with sociodemographic and health variables. We conducted a cross-sectional, analytical, non-probabilistic study. A sample of 2047 women answered an online self-report survey that included a Likert scale about the perception of domestic work associated with food. The survey also included an open comment section. The survey was available between May and June 2020, during the first wave of the COVID-19 pandemic and when most of the country had some degree of mobility restriction. 70.2% of participants perceived their domestic work as "regular"; being younger, having a higher educational level, caring for children or the elderly, and having worse self-perception of mental and general health status increased the chances of having a lower perception of the burden of these tasks. In comments, women declared how heavy the domestic work was, the challenges of being together with their families and of paid job requirements, and how family demands from them increased. Most women felt that their domestic work was heavier during this pandemic period: some groups of women could be at risk of being more affected by this extra workload at home. The importance of interventions and public policies with a gender perspective becomes relevant, considering the role of women in the home and the necessity to generate a social change regarding the domestic burden associated with gender., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Llanos et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2024
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16. A novel pectin methylesterase inhibitor, PMEI3, in common bean suggests a key role of pectin methylesterification in Pseudomonas resistance.

Author

De la Rubia AG, Largo-Gosens A, Yusta R, Sepúlveda-Orellana P, Riveros A, Centeno ML, Sanhueza D, Meneses C, Saez-Aguayo S, and García-Angulo P

Subjects
Carboxylic Ester Hydrolases genetics, Carboxylic Ester Hydrolases metabolism, Pseudomonas syringae physiology, Pectins metabolism, Cell Wall metabolism, Arabidopsis genetics, Arabidopsis metabolism, Phaseolus genetics, Phaseolus metabolism
Abstract

The mechanisms underlying susceptibility to and defense against Pseudomonas syringae (Pph) of the common bean (Phaseolus vulgaris) have not yet been clarified. To investigate these, 15-day-old plants of the variety Riñón were infected with Pph and the transcriptomic changes at 2 h and 9 h post-infection were analysed. RNA-seq analysis showed an up-regulation of genes involved in defense/signaling at 2 h, most of them being down-regulated at 9 h, suggesting that Pph inhibits the transcriptomic reprogramming of the plant. This trend was also observed in the modulation of 101 cell wall-related genes. Cell wall composition changes at early stages of Pph infection were associated with homogalacturonan methylation and the formation of egg boxes. Among the cell wall genes modulated, a pectin methylesterase inhibitor 3 (PvPMEI3) gene, closely related to AtPMEI3, was detected. PvPMEI3 protein was located in the apoplast and its pectin methylesterase inhibitory activity was demonstrated. PvPMEI3 seems to be a good candidate to play a key role in Pph infection, which was supported by analysis of an Arabidopsis pmei3 mutant, which showed susceptibility to Pph, in contrast to resistant Arabidopsis Col-0 plants. These results indicate a key role of the degree of pectin methylesterification in host resistance to Pph during the first steps of the attack., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published
2024
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17. Identification of grapevine clones via high-throughput amplicon sequencing: a proof-of-concept study.

Author

Urra C, Sanhueza D, Pavez C, Tapia P, Núñez-Lillo G, Minio A, Miossec M, Blanco-Herrera F, Gainza F, Castro A, Cantu D, and Meneses C

Subjects
Genetic Markers, Base Sequence, Clone Cells, Vitis genetics, Wine
Abstract

Wine cultivars are available to growers in multiple clonal selections with agronomic and enological differences. Phenotypic differences between clones originated from somatic mutations that accrued over thousands of asexual propagation cycles. Genetic diversity between grape cultivars remains unexplored, and tools to discriminate unequivocally clones have been lacking. This study aimed to uncover genetic variations among a group of clonal selections of 4 important Vitis vinifera cultivars: Cabernet sauvignon, Sauvignon blanc, Chardonnay, and Merlot, and use this information to develop genetic markers to discriminate the clones of these cultivars. We sequenced with short-read sequencing technology the genomes of 18 clones, including biological replicates for a total of 46 genomes. Sequences were aligned to their respective cultivar's reference genome for variant calling. We used reference genomes of Cabernet sauvignon, Chardonnay, and Merlot and developed a de novo genome assembly of Sauvignon blanc using long-read sequencing. On average, 4 million variants were detected for each clone, with 74.2% being single nucleotide variants and 25.8% being small insertions or deletions (InDel). The frequency of these variants was consistent across all clones. From these variants, we validated 46 clonal markers using high-throughput amplicon sequencing for 77.7% of the evaluated clones, most of them small InDel. These results represent an advance in grapevine genotyping strategies and will benefit the viticulture industry for the characterization and identification of the plant material., Competing Interests: Conflicts of interest The authors declare no conflict of interest., (© The Author(s) 2023. Published by Oxford University Press on behalf of The Genetics Society of America.)

Published
2023
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18. Beyond purified dietary fibre supplements: Compositional variation between cell wall fibre from different plants influences human faecal microbiota activity and growth in vitro.

Author

Solvang M, Farquharson FM, Sanhueza D, Horgan G, Russell WR, and Louis P

Subjects
Humans, RNA, Ribosomal, 16S genetics, RNA, Ribosomal, 16S metabolism, Dietary Fiber metabolism, Bacteria, Feces microbiology, Fermentation, Pectins metabolism, Microbiota, Gastrointestinal Microbiome
Abstract

Dietary fibre is a major energy source for the human gut microbiota, but it is unclear to what extent the fibre source and complexity affect microbial growth and metabolite production. Cell wall material and pectin were extracted from five different dicotyledon plant sources, apples, beet leaves, beetroots, carrots and kale, and compositional analysis revealed differences in the monosaccharide composition. Human faecal batch incubations were conducted with 14 different substrates, including the plant extracts, wheat bran and commercially available carbohydrates. Microbial activity was determined for up to 72 h by measuring gas and fermentation acid production, total bacteria (by qPCR) and microbial community composition by 16S rRNA amplicon sequencing. The more complex substrates gave rise to more microbiota variation compared with the pectins. The comparison of different plant organs showed that the leaves (beet leaf and kale) and roots (carrot and beetroot) did not give rise to similar bacterial communities. Rather, the compositional features of the plants, such as high arabinan levels in beet and high galactan levels in carrot, appear to be major predictors of bacterial enrichment on the substrates. Thus, in-depth knowledge on dietary fibre composition should aid the design of diets focused on optimizing the microbiota., (© 2023 The Authors. Environmental Microbiology published by Applied Microbiology International and John Wiley & Sons Ltd.)

Published
2023
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19. GoSAMT s are required for pectin methyl-esterification and mucilage release in seed coat epidermal cells.

Author

Parra-Rojas JP, Sepúlveda-Orellana P, Sanhueza D, Salinas-Grenet H, Temple H, Dupree P, Saez-Aguayo S, and Orellana A

Abstract

Introduction: GoSAMTs play a role in the methylation of polysaccharides synthesized by the Golgi. Pectin homogalacturonan (HG) methyl-esterification is essential for the proper function of this polysaccharide in cell walls. In order to better understand the role of GoSAMTs in HG biosynthesis, we analyzed mucilage methyl-esterification in gosamt mutants., Methods: To determine the function of GoSAMT1 and GoSAMT2 in HG methyl-esterification we utilized epidermal cells of seed coats, as these structures produce mucilage, which is a pectic matrix. We evaluated differences in seed surface morphology and quantified mucilage release. We measured methanol release, and used antibodies and confocal microscopy to analyze HG methyl-esterification in mucilage., Results: We observed morphological differences on the seed surface and delayed, uneven mucilage release in gosamt1-1gosamt2-1 double mutants. We also found changes in the distal wall length indicating abnormal cell wall breakage in this double mutant. Using methanol release and immunolabeling, we confirmed that GoSAMT1 and GoSAMT2 are involved in HG methyl-esterification in mucilage. However, we did not find evidence of decreasing HG in the gosamt mutants. Confocal microscopy analyses detected different patterns in the adherent mucilage and a greater number of low-methyl-esterified domains near the seed coat surface, which correlates with a greater number of "egg-box" structures in this region. We also detected a shift in the partitioning between the Rhamnogalacturonan-I soluble and adherent layers of the double mutant, which correlated with increased amounts of arabinose and arabinogalactan-protein in the adherent mucilage., Discussion: The results show that the HG synthesized in gosamt mutant plants is less methyl esterified, resulting in more egg-box structures, which stiffen the cell walls in epidermal cells and change the rheological properties of the seed surface. The increased amounts of arabinose and arabinogalactan-protein in adherent mucilage, also suggests that compensation mechanisms were triggered in the gosamt mutants., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Parra-Rojas, Sepúlveda-Orellana, Sanhueza, Salinas-Grenet, Temple, Dupree, Saez-Aguayo and Orellana.)

Published
2023
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20. An Arabidopsis thaliana arabinogalactan-protein (AGP31) and several cationic AGP fragments catalyse the boron bridging of rhamnogalacturonan-II.

Author

Sanhueza D, Begum RA, Albenne C, Jamet E, and Fry SC

Subjects
Borates, Boron, Catalysis, Cations, Cell Wall, Lead, Mucoproteins, Peptide Fragments, Plant Proteins, Rhamnogalacturonans, Arabidopsis, Arabidopsis Proteins
Abstract

Rhamnogalacturonan-II (RG-II) is a complex pectic domain in plant primary cell walls. In vivo, most RG-II domains are covalently dimerised via borate diester bridges, essential for correct cell-wall assembly, but the dimerisation of pure RG-II monomers by boric acid in vitro is extremely slow. Cationic 'chaperones' can promote dimerisation, probably by overcoming the mutual repulsion between neighbouring anionic RG-II molecules. Highly effective artificial chaperones include Pb2+ and polyhistidine, but the proposed natural chaperones remained elusive. We have now tested cationic peptide fragments of several Arabidopsis thaliana arabinogalactan-proteins (AGPs) as candidates. Fragments of AGP17, 18, 19 and 31 were effective, typically at ∼25 µg/ml (9-19 µM), promoting the boron bridging of 16-20 µM monomeric RG-II at pH 4.8 in vitro. Native AGP31 glycoprotein was also effective, and hexahistidine was moderately so. All chaperones tested interacted reversibly with RG-II and were not consumed during the reaction; thus they acted catalytically, and may constitute the first reported boron-acting enzyme activity, an RG-II borate diesterase. Many of the peptide chaperones became less effective catalysts at higher concentration, which we interpret as due to the formation of RG-II-peptide complexes with a net positive charge, as mutually repulsive as negatively charged pure RG-II molecules. The four unique AGPs studied here may serve an enzymic role in the living plant cell, acting on RG-II within Golgi cisternae and/or in the apoplast after secretion. In this way, RG-II and specific AGPs may contribute to cell-wall assembly and hence plant cell expansion and development., (© 2022 The Author(s).)

Published
2022
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21. Identification of DNA Methylation and Transcriptomic Profiles Associated With Fruit Mealiness in Prunus persica (L.) Batsch.

Author

Rothkegel K, Espinoza A, Sanhueza D, Lillo-Carmona V, Riveros A, Campos-Vargas R, and Meneses C

Abstract

Peach ( Prunus persica ) fruits have a fast ripening process and a shelf-life of days, presenting a challenge for long-distance consuming markets. To prolong shelf-life, peach fruits are stored at low temperatures (0 to 7 °C) for at least two weeks, which can lead to the development of mealiness, a physiological disorder that reduces fruit quality and decreases consumer acceptance. Several studies have been made to understand this disorder, however, the molecular mechanisms underlying mealiness are not fully understood. Epigenetic factors, such as DNA methylation, modulate gene expression according to the genetic background and environmental conditions. In this sense, the aim of this work was to identify differentially methylated regions (DMRs) that could affect gene expression in contrasting individuals for mealiness. Peach flesh was studied at harvest time (E1 stage) and after cold storage (E3 stage) for 30 days. The distribution of DNA methylations within the eight chromosomes of P. persica showed higher methylation levels in pericentromeric regions and most differences between mealy and normal fruits were at Chr1, Chr4, and Chr8. Notably, differences in Chr4 co-localized with previous QTLs associated with mealiness. Additionally, the number of DMRs was higher in CHH cytosines of normal and mealy fruits at E3; however, most DMRs were attributed to mealy fruits from E1, increasing at E3. From RNA-Seq data, we observed that differentially expressed genes (DEGs) between normal and mealy fruits were associated with ethylene signaling, cell wall modification, lipid metabolism, oxidative stress and iron homeostasis. When integrating the annotation of DMRs and DEGs, we identified a CYP450 82A and an UDP-ARABINOSE 4 EPIMERASE 1 gene that were downregulated and hypermethylated in mealy fruits, coinciding with the co-localization of a transposable element (TE). Altogether, this study indicates that genetic differences between tolerant and susceptible individuals is predominantly affecting epigenetic regulation over gene expression, which could contribute to a metabolic alteration from earlier stages of development, resulting in mealiness at later stages. Finally, this epigenetic mark should be further studied for the development of new molecular tools in support of breeding programs., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Rothkegel, Espinoza, Sanhueza, Lillo-Carmona, Riveros, Campos-Vargas and Meneses.)

Published
2021
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22. SARS-CoV-2 infection in asymptomatic healthcare workers at a clinic in Chile.

Author

Olmos C, Campaña G, Monreal V, Pidal P, Sanchez N, Airola C, Sanhueza D, Tapia P, Muñoz AM, Corvalan F, Hurtado S, Meneses C, Orellana A, Montecino M, Arriagada G, and Bustos FJ

Subjects
Adult, COVID-19 transmission, COVID-19 virology, Chile epidemiology, Cross-Sectional Studies, Female, Hospitals, University, Humans, Infection Control methods, Male, Middle Aged, SARS-CoV-2 isolation & purification, Asymptomatic Infections epidemiology, COVID-19 diagnosis, COVID-19 epidemiology, Health Personnel statistics & numerical data
Abstract

Asymptomatic SARS-CoV-2 infection of healthcare workers (HCWs) has been reported as a key player in the nosocomial spreading of COVID-19. Early detection of infected HCWs can prevent spreading of the virus in hospitals among HCWs and patients. We conducted a cross-sectional study to determine the asymptomatic infection of HCWs in a private clinic in the city of Santiago, Chile. Our study was conducted during a period of 5 weeks at the peak of transmission of SARS-CoV-2 in Chile. Nasopharyngeal samples were obtained from 413 HCWs and tested for the presence of SARS-CoV-2 using RT-qPCR. We found that a 3.14% of HCWs were positive for the presence of SARS-CoV-2 (14/413). Out of these, 7/14 were completely asymptomatic and did not develop symptoms within 3 weeks of testing. Sequencing of viral genomes showed the predominance of the GR clade; however, sequence comparison demonstrated numerous genetic differences among them suggesting community infection as the main focus of transmission among HCWs. Our study demonstrates that the protocols applied to protect HCWs and patients have been effective as no infection clusters due to asymptomatic carriers were found in the clinic. Together, these data suggest that infection with SARS-CoV-2 among HCWs of this health center is not nosocomial., Competing Interests: The authors have declared that no competing interests exist

Published
2021
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23. Enzymically attaching oligosaccharide-linked 'cargoes' to cellulose and other commercial polysaccharides via stable covalent bonds.

Author

Herburger K, Franková L, Sanhueza D, Roig-Sanchez S, Meulewaeter F, Hudson A, Thomson A, Laromaine A, Budtova T, and Fry SC

Subjects
Catalysis, Cellulase chemistry, Chitosan chemistry, Glucans chemistry, Glycosides, Glycosylation, Glycosyltransferases chemistry, Hydrogels chemistry, Substrate Specificity, Xylans chemistry, Cellulose chemistry, Oligosaccharides chemistry, Polysaccharides chemistry
Abstract

The Equisetum enzyme hetero-trans-β-glucanase (HTG) covalently grafts native plant cellulose (donor-substrate) to xyloglucan (acceptor-substrate), potentially offering a novel 'green' method of cellulose functionalisation. However, the range of cellulosic and non-cellulosic donor substrates that can be utilised by HTG is unknown, limiting our insight into its biotechnological potential. Here we show that HTG binds all celluloses tested (papers, tissues, hydrogels, bacterial cellulose) to radioactively- or fluorescently-labelled xyloglucan-heptasaccharide (XXXGol; acceptor-substrate). Glycol-chitin, glycol-chitosan and chitosan also acted as donor substrates but less effectively than cellulose. Cellulose-XXXGol conjugates were formed throughout the volume of a block of hydrogel, demonstrating penetration. Plant-derived celluloses (cellulose Iβ) became more effective donor-substrates after 'mercerisation' in ≥3 M NaOH; the opposite was true for bacterial cellulose Iα. Cellulose-XXXGol bonds resisted boiling 6 M NaOH, demonstrating strong glycosidic bonding. In conclusion, HTG stably grafts native and processed celluloses to xyloglucan-oligosaccharides, which may carry valuable 'cargoes', exemplified by sulphorhodamine. We thus demonstrate HTG's biotechnological potential to modify various cellulose-based substrates such as textiles, pulps, papers, packaging, sanitary products and hydrogels., Competing Interests: Declaration of competing interest The authors declare that they have no conflict of interest. A patent application (WO2015044209) has been filed by BASF and The University of Edinburgh for the use of hetero-transglycosylase. L.F., F.M., A.H., and S.C.F. are inventors., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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24. MUR1-mediated cell-wall fucosylation is required for freezing tolerance in Arabidopsis thaliana.

Author

Panter PE, Kent O, Dale M, Smith SJ, Skipsey M, Thorlby G, Cummins I, Ramsay N, Begum RA, Sanhueza D, Fry SC, Knight MR, and Knight H

Subjects
Arabidopsis cytology, Arabidopsis Proteins genetics, Boron metabolism, Cloning, Molecular, Freezing, Fucose metabolism, Mutation, Pectins chemistry, Pectins metabolism, Plant Cells metabolism, Stress, Physiological physiology, Arabidopsis physiology, Arabidopsis Proteins metabolism, Cell Wall metabolism
Abstract

Forward genetic screens play a key role in the identification of genes contributing to plant stress tolerance. Using a screen for freezing sensitivity, we have identified a novel freezing tolerance gene, SENSITIVE-TO-FREEZING8, in Arabidopsis thaliana. We identified SFR8 using recombination-based mapping and whole-genome sequencing. As SFR8 was predicted to have an effect on cell wall composition, we used GC-MS and polyacrylamide gel electrophoresis to measure cell-wall fucose and boron (B)-dependent dimerization of the cell-wall pectic domain rhamnogalacturonan II (RGII) in planta. After treatments to promote borate-bridging of RGII, we assessed freeze-induced damage in wild-type and sfr8 plants by measuring electrolyte leakage from freeze-thawed leaf discs. We mapped the sfr8 mutation to MUR1, a gene encoding the fucose biosynthetic enzyme GDP-d-mannose-4,6-dehydratase. sfr8 cell walls exhibited low cell-wall fucose levels and reduced RGII bridging. Freezing sensitivity of sfr8 mutants was ameliorated by B supplementation, which can restore RGII dimerization. B transport mutants with reduced RGII dimerization were also freezing-sensitive. Our research identifies a role for the structure and composition of the plant primary cell wall in determining basal plant freezing tolerance and highlights the specific importance of fucosylation, most likely through its effect on the ability of RGII pectin to dimerize., (© 2019 The Authors New Phytologist © 2019 New Phytologist Trust.)

Published
2019
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25. New steps in mucilage biosynthesis revealed by analysis of the transcriptome of the UDP-rhamnose/UDP-galactose transporter 2 mutant.

Author

Parra-Rojas JP, Largo-Gosens A, Carrasco T, Celiz-Balboa J, Arenas-Morales V, Sepúlveda-Orellana P, Temple H, Sanhueza D, Reyes FC, Meneses C, Saez-Aguayo S, and Orellana A

Subjects
Arabidopsis metabolism, Arabidopsis Proteins metabolism, Monosaccharide Transport Proteins metabolism, Mutation, Arabidopsis genetics, Arabidopsis Proteins genetics, Monosaccharide Transport Proteins genetics, Plant Mucilage biosynthesis, Transcriptome
Abstract

Upon imbibition, epidermal cells of Arabidopsis thaliana seeds release a mucilage formed mostly by pectic polysaccharides. The Arabidopsis mucilage is composed mainly of unbranched rhamnogalacturonan-I (RG-I), with low amounts of cellulose, homogalacturonan, and traces of xylan, xyloglucan, galactoglucomannan, and galactan. The pectin-rich composition of the mucilage and their simple extractability makes this structure a good candidate to study the biosynthesis of pectic polysaccharides and their modification. Here, we characterize the mucilage phenotype of a mutant in the UDP-rhamnose/galactose transporter 2 (URGT2), which exhibits a reduction in RG-I and also shows pleiotropic changes, suggesting the existence of compensation mechanisms triggered by the lack of URGT2. To gain an insight into the possible compensation mechanisms activated in the mutant, we performed a transcriptome analysis of developing seeds using RNA sequencing (RNA-seq). The results showed a significant misregulation of 3149 genes, 37 of them (out of the 75 genes described to date) encoding genes proposed to be involved in mucilage biosynthesis and/or its modification. The changes observed in urgt2 included the up-regulation of UAFT2, a UDP-arabinofuranose transporter, and UUAT3, a paralog of the UDP-uronic acid transporter UUAT1, suggesting that they play a role in mucilage biosynthesis. Mutants in both genes showed changes in mucilage composition and structure, confirming their participation in mucilage biosynthesis. Our results suggest that plants lacking a UDP-rhamnose/galactose transporter undergo important changes in gene expression, probably to compensate modifications in the plant cell wall due to the lack of a gene involved in its biosynthesis., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Experimental Biology.)

Published
2019
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26. A Prunus persica genome-wide RNA-seq approach uncovers major differences in the transcriptome among chilling injury sensitive and non-sensitive varieties.

Author

Nilo-Poyanco R, Vizoso P, Sanhueza D, Balic I, Meneses C, Orellana A, and Campos-Vargas R

Subjects
Bayes Theorem, Cold Temperature, Ethylenes metabolism, Fruit genetics, Quantitative Trait Loci genetics, Prunus persica genetics, RNA genetics, Transcriptome genetics
Abstract

Chilling injury represents a major constrain for crops productivity. Prunus persica, one of the most relevant rosacea crops, have early season varieties that are resistant to chilling injury, in contrast to late season varieties, which display chilling symptoms such as mealiness (dry, sandy fruit mesocarp) after prolonged storage at chilling temperatures. To uncover the molecular processes related to the ability of early varieties to withstand mealiness, postharvest and genome-wide RNA-seq assessments were performed in two early and two late varieties. Differences in juice content and ethylene biosynthesis were detected among early and late season fruits that became mealy after exposed to prolonged chilling. Principal component and data distribution analysis revealed that cold-stored late variety fruit displayed an exacerbated and unique transcriptome profile when compared to any other postharvest condition. A differential expression analysis performed using an empirical Bayes mixture modeling approach followed by co-expression and functional enrichment analysis uncover processes related to ethylene, lipids, cell wall, carotenoids and DNA metabolism, light response, and plastid homeostasis associated to the susceptibility or resistance of P. persica varieties to chilling stress. Several of the genes related to these processes are in quantitative trait loci (QTL) associated to mealiness in P. persica. Together, these analyses exemplify how P. persica can be used as a model for studying chilling stress in plants., (© 2018 Scandinavian Plant Physiology Society.)

Published
2019
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27. Environmental Variations in Mycobacterium ulcerans Transcriptome: Absence of Mycolactone Expression in Suboptimal Environments.

Author

Sanhueza D, Guégan JF, Jordan H, and Chevillon C

Subjects
Bacteriological Techniques, Environment, High-Throughput Nucleotide Sequencing, Macrolides metabolism, Mycobacterium ulcerans genetics, Mycobacterium ulcerans metabolism, Transcriptome
Abstract

Buruli ulcer is a neglected tropical infectious disease, produced by the environmentally persistent pathogen Mycobacterium ulcerans (MU). Neither the ecological niche nor the exact mode of transmission of MU are completely elucidated. However, some environmental factors, such as the concentration in chitin and pH values, were reported to promote MU growth in vitro. We pursued this research using next generation sequencing (NGS) and mRNA sequencing to investigate potential changes in MU genomic expression profiles across in vitro environmental conditions known to be suitable for MU growth. Supplementing the growth culture medium in either chitin alone, calcium alone, or in both chitin and calcium significantly impacted the MU transcriptome and thus several metabolic pathways, such as, for instance, those involved in DNA synthesis or cell wall production. By contrast, some genes carried by the virulence plasmid and necessary for the production of the mycolactone toxin were expressed neither in control nor in any modified environments. We hypothesized that these genes are only expressed in stressful conditions. Our results describe important environmental determinants playing a role in the pathogenicity of MU, helping the understanding of its complex natural life cycle and encouraging further research using genomic approaches., Competing Interests: The authors declare no conflict of interest.

Published
2019
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28. Chitin Increases Mycobacterium ulcerans Growth in Acidic Environments.

Author

Sanhueza D, Chevillon C, Bouzinbi N, Godreuil S, and Guégan JF

Subjects
Culture Media, DNA Replication drug effects, Microbial Viability drug effects, Chitin pharmacology, Hydrogen-Ion Concentration, Mycobacterium ulcerans growth & development
Abstract

Species with a chitinous exoskeleton are overrepresented among the aquatic organisms carrying Mycobacterium ulcerans (MU) in nature and laboratory experiments have demonstrated the enhancing effects of chitin on the growth of MU. Field surveys identified pH as one of the key parameters delineating the distribution of MU in tropical regions. The present study investigated the relationship between chitin and pH in MU growth. By focusing on pH variations in the field, our results revealed that chitin enhanced MU growth in acidic environments. The present study provides new information on the ecological conditions favoring the development of this mycobacterium in nature.

Published
2018
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29. Transcriptome analysis during ripening of table grape berry cv. Thompson Seedless.

Author

Balic I, Vizoso P, Nilo-Poyanco R, Sanhueza D, Olmedo P, Sepúlveda P, Arriagada C, Defilippi BG, Meneses C, and Campos-Vargas R

Subjects
Fruit metabolism, Gene Expression Profiling, Gene Ontology, Metabolic Networks and Pathways genetics, Phenotype, Plant Proteins genetics, RNA, Plant biosynthesis, RNA, Plant genetics, RNA, Plant isolation & purification, Real-Time Polymerase Chain Reaction, Vitis growth & development, Vitis metabolism, Fruit growth & development, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Genes, Plant, Transcriptome, Vitis genetics
Abstract

Ripening is one of the key processes associated with the development of major organoleptic characteristics of the fruit. This process has been extensively characterized in climacteric fruit, in contrast with non-climacteric fruit such as grape, where the process is less understood. With the aim of studying changes in gene expression during ripening of non-climacteric fruit, an Illumina based RNA-Seq transcriptome analysis was performed on four developmental stages, between veraison and harvest, on table grapes berries cv Thompson Seedless. Functional analysis showed a transcriptional increase in genes related with degradation processes of chlorophyll, lipids, macromolecules recycling and nucleosomes organization; accompanied by a decrease in genes related with chloroplasts integrity and amino acid synthesis pathways. It was possible to identify several processes described during leaf senescence, particularly close to harvest. Before this point, the results suggest a high transcriptional activity associated with the regulation of gene expression, cytoskeletal organization and cell wall metabolism, which can be related to growth of berries and firmness loss characteristic to this stage of development. This high metabolic activity could be associated with an increase in the transcription of genes related with glycolysis and respiration, unexpected for a non-climacteric fruit ripening.

Published
2018
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30. A catechol oxidase AcPPO from cherimoya (Annona cherimola Mill.) is localized to the Golgi apparatus.

Author

Olmedo P, Moreno AA, Sanhueza D, Balic I, Silva-Sanzana C, Zepeda B, Verdonk JC, Arriagada C, Meneses C, and Campos-Vargas R

Subjects
Annona metabolism, Catechol Oxidase metabolism, Golgi Apparatus genetics, Golgi Apparatus metabolism, Microscopy, Confocal, Plant Proteins metabolism, Nicotiana genetics, Nicotiana metabolism, Annona genetics, Catechol Oxidase genetics, Gene Expression, Plant Proteins genetics
Abstract

Cherimoya (Annona cherimola) is an exotic fruit with attractive organoleptic characteristics. However, it is highly perishable and susceptible to postharvest browning. In fresh fruit, browning is primarily caused by the polyphenol oxidase (PPO) enzyme catalyzing the oxidation of o-diphenols to quinones, which polymerize to form brown melanin pigment. There is no consensus in the literature regarding a specific role of PPO, and its subcellular localization in different plant species is mainly described within plastids. The present work determined the subcellular localization of a PPO protein from cherimoya (AcPPO). The obtained results revealed that the AcPPO- green fluorescent protein co-localized with a Golgi apparatus marker, and AcPPO activity was present in Golgi apparatus-enriched fractions. Likewise, transient expression assays revealed that AcPPO remained active in Golgi apparatus-enriched fractions obtained from tobacco leaves. These results suggest a putative function of AcPPO in the Golgi apparatus of cherimoya, providing new perspectives on PPO functionality in the secretory pathway, its effects on cherimoya physiology, and the evolution of this enzyme., (Copyright © 2017. Published by Elsevier B.V.)

Published
2018
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31. The population impact of obesity, sedentary lifestyle, and tobacco and alcohol consumption on the prevalence of type 2 diabetes: Analysis of a health population survey in Chile, 2010.

Author

Bertoglia MP, Gormaz JG, Libuy M, Sanhueza D, Gajardo A, Srur A, Wallbaum M, and Erazo M

Subjects
Alcohol Drinking epidemiology, Alcoholism complications, Alcoholism epidemiology, Chile epidemiology, Cross-Sectional Studies, Diabetes Mellitus, Type 2 epidemiology, Female, Humans, Male, Middle Aged, Obesity etiology, Prevalence, Risk Factors, Surveys and Questionnaires, Tobacco Use epidemiology, Alcohol Drinking adverse effects, Diabetes Mellitus, Type 2 etiology, Obesity complications, Sedentary Behavior, Tobacco Use adverse effects
Abstract

Aim: To estimate the impact of tobacco use, sedentary lifestyle, obesity and alcohol consumption on type 2 diabetes mellitus (T2DM) prevalence in the Chilean population., Methods: The study-included 5,293 subjects with fasting glycaemia levels from the nationwide cross-sectional health survey in 2010, commissioned by the Ministry of Health, Chile. Crude and Adjusted Odds Ratio to T2DM and its corresponding 95% confidence interval were estimated through logistic regressions. Attributable fractions and population attributable fractions were estimated., Results: T2DM prevalence was 9.5%. Sedentary lifestyles and obesity were significant risk factors for T2DM. 52,4% of T2DM could be avoided if these individuals were not obese, and at a population level, 23% of T2DM could be preventable if obesity did not exist. A 64% of T2DM is explained by sedentariness, and if people would become active, a 62,2% of the cases of diabetes could be avoided., Interpretation: About 79% of T2DM cases in Chile could be prevented with cost-effective strategies focused on preventing sedentary lifestyle and obesity. It's therefore urgent to implement evidence-based public health polices, aimed to decrease the prevalence of T2DM, by controlling its risk factors and consequently, reducing the complications from T2DM.

Published
2017
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33. UUAT1 Is a Golgi-Localized UDP-Uronic Acid Transporter That Modulates the Polysaccharide Composition of Arabidopsis Seed Mucilage.

Author

Saez-Aguayo S, Rautengarten C, Temple H, Sanhueza D, Ejsmentewicz T, Sandoval-Ibañez O, Doñas D, Parra-Rojas JP, Ebert B, Lehner A, Mollet JC, Dupree P, Scheller HV, Heazlewood JL, Reyes FC, and Orellana A

Subjects
Arabidopsis genetics, Arabidopsis Proteins genetics, Cell Wall genetics, Cell Wall metabolism, Gene Expression Regulation, Plant, Immunoblotting, Microscopy, Confocal, Mutation, Nucleotide Transport Proteins genetics, Pectins metabolism, Plants, Genetically Modified, Seeds genetics, Uridine Diphosphate Sugars metabolism, Arabidopsis metabolism, Arabidopsis Proteins metabolism, Golgi Apparatus metabolism, Nucleotide Transport Proteins metabolism, Polysaccharides metabolism, Seeds metabolism
Abstract

UDP-glucuronic acid (UDP-GlcA) is the precursor of many plant cell wall polysaccharides and is required for production of seed mucilage. Following synthesis in the cytosol, it is transported into the lumen of the Golgi apparatus, where it is converted to UDP-galacturonic acid (UDP-GalA), UDP-arabinose, and UDP-xylose. To identify the Golgi-localized UDP-GlcA transporter, we screened Arabidopsis thaliana mutants in genes coding for putative nucleotide sugar transporters for altered seed mucilage, a structure rich in the GalA-containing polysaccharide rhamnogalacturonan I. As a result, we identified UUAT1 , which encodes a Golgi-localized protein that transports UDP-GlcA and UDP-GalA in vitro. The seed coat of uuat1 mutants had less GalA, rhamnose, and xylose in the soluble mucilage, and the distal cell walls had decreased arabinan content. Cell walls of other organs and cells had lower arabinose levels in roots and pollen tubes, but no differences were observed in GalA or xylose contents. Furthermore, the GlcA content of glucuronoxylan in the stem was not affected in the mutant. Interestingly, the degree of homogalacturonan methylation increased in uuat1 These results suggest that this UDP-GlcA transporter plays a key role defining the seed mucilage sugar composition and that its absence produces pleiotropic effects in this component of the plant extracellular matrix., (© 2017 American Society of Plant Biologists. All rights reserved.)

Published
2017
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34. Deforestation-driven food-web collapse linked to emerging tropical infectious disease, Mycobacterium ulcerans .

Author

Morris AL, Guégan JF, Andreou D, Marsollier L, Carolan K, Le Croller M, Sanhueza D, and Gozlan RE

Subjects
Animals, Communicable Diseases, Emerging epidemiology, Fishes microbiology, Forests, French Guiana epidemiology, Invertebrates microbiology, Buruli Ulcer epidemiology, Conservation of Natural Resources, Food Chain, Mycobacterium ulcerans isolation & purification
Abstract

Generalist microorganisms are the agents of many emerging infectious diseases (EIDs), but their natural life cycles are difficult to predict due to the multiplicity of potential hosts and environmental reservoirs. Among 250 known human EIDs, many have been traced to tropical rain forests and specifically freshwater aquatic systems, which act as an interface between microbe-rich sediments or substrates and terrestrial habitats. Along with the rapid urbanization of developing countries, population encroachment, deforestation, and land-use modifications are expected to increase the risk of EID outbreaks. We show that the freshwater food-web collapse driven by land-use change has a nonlinear effect on the abundance of preferential hosts of a generalist bacterial pathogen, Mycobacterium ulcerans . This leads to an increase of the pathogen within systems at certain levels of environmental disturbance. The complex link between aquatic, terrestrial, and EID processes highlights the potential importance of species community composition and structure and species life history traits in disease risk estimation and mapping. Mechanisms such as the one shown here are also central in predicting how human-induced environmental change, for example, deforestation and changes in land use, may drive emergence.

Published
2016
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35. Chitin promotes Mycobacterium ulcerans growth.

Author

Sanhueza D, Chevillon C, Colwell R, Babonneau J, Marion E, Marsollier L, and Guégan JF

Subjects
Buruli Ulcer microbiology, Calcium, Ecosystem, Humans, Iron metabolism, Phosphates metabolism, Real-Time Polymerase Chain Reaction, Zinc metabolism, Chitin metabolism, Mycobacterium ulcerans growth & development, Mycobacterium ulcerans metabolism
Abstract

Mycobacterium ulcerans(MU) is the causative agent of Buruli ulcer, an emerging human infectious disease. However, both the ecology and life cycle of MU are poorly understood. The occurrence of MU has been linked to the aquatic environment, notably water bodies affected by human activities. It has been hypothesized that one or a combination of environmental factor(s) connected to human activities could favour growth of MU in aquatic systems. Here, we testedin vitrothe growth effect of two ubiquitous polysaccharides and five chemical components on MU at concentration ranges shown to occur in endemic regions. Real-time PCR showed that chitin increased MU growth significantly providing a nutrient source or environmental support for thebacillus, thereby, providing a focus on the association between MU and aquatic arthropods. Aquatic environments with elevated population of arthropods provide increased chitin availability and, thereby, enhanced multiplication of MU. If calcium very slightly enhanced MU growth, iron, zinc, sulphate and phosphate did not stimulate MU growth, and at the concentration ranges of this study would limit MU population in natural ecosystems., (© FEMS 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2016
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37. Transcriptomic analysis of fruit stored under cold conditions using controlled atmosphere in Prunus persica cv. "Red Pearl".

Author

Sanhueza D, Vizoso P, Balic I, Campos-Vargas R, and Meneses C

Abstract

Cold storage (CS) can induce a physiological disorder known as chilling injury (CI) in nectarine fruits. The main symptom is mealiness that is perceived as non-juicy fruit by consumers. Postharvest treatments such as controlled atmosphere (CA; a high CO2 concentration and low O2) have been used under cold conditions to avoid this disorder. With the objective of exploring the mechanisms involved in the CA effect on mealiness prevention, we analyzed transcriptomic changes under six conditions of "Red Pearl" nectarines by RNA-Seq. Our analysis included just harvested nectarines, juicy non-stored fruits, fruits affected for CI after CS and fruits stored in a combination of CA plus CS without CI phenotype. Nectarines stored in cold conditions combined with CA treatment resulted in less mealiness; we obtained 21.6% of juice content compared with just CS fruits (7.7%; mealy flesh). RNA-Seq data analyses were carried out to study the gene expression for different conditions assayed. During ripening, we detected that nectarines exposed to CA treatment expressed a similar number of genes compared with fruits that were not exposed to cold conditions. Firm fruits have more differentially expressed genes than soft fruits, which suggest that most important changes occur during CS. On the other hand, gene ontology analysis revealed enrichment mainly in metabolic and cellular processes. Differentially expressed genes analysis showed that low O2 concentrations combined with cold conditions slows the metabolic processes more than just the cold storage, resulting mainly in the suppression of primary metabolism and cold stress response. This is a significant step toward unraveling the molecular mechanism that explains the effectiveness of CA as a tool to prevent CI development on fruits.

Published
2015
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38. Comparative study of two table grape varieties with contrasting texture during cold storage.

Author

Ejsmentewicz T, Balic I, Sanhueza D, Barria R, Meneses C, Orellana A, Prieto H, Defilippi BG, and Campos-Vargas R

Subjects
Carboxylic Ester Hydrolases metabolism, Cold Temperature, Food Storage, Fruit anatomy & histology, Fruit classification, Fruit metabolism, Phenotype, Polygalacturonase metabolism, Polysaccharides metabolism, Vitis anatomy & histology, Vitis classification, Vitis metabolism, Calcium metabolism, Cell Wall metabolism, Fruit chemistry, Pectins metabolism, Uronic Acids analysis, Vitis chemistry
Abstract

Postharvest softening of grape berries is one of the main problems affecting grape quality during export. Cell wall disassembly, especially of pectin polysaccharides, has been commonly related to fruit softening, but its influence has been poorly studied in grapes during postharvest life. In order to better understand this process, the Thompson seedless (TS) variety, which has significantly decreased berry texture after prolonged cold storage, was compared to NN107, a new table grape variety with higher berry firmness. Biochemical analysis revealed a greater amount of calcium in the cell wall of the NN107 variety and less reduction of uronic acids than TS during cold storage. In addition, the activity of polygalacturonase was higher in TS than NN107 berries; meanwhile pectin methylesterase activity was similar in both varieties. Polysaccharide analysis using carbohydrate gel electrophoresis (PACE) suggests a differential pectin metabolism during prolonged cold storage. Results revealed lower pectin fragments in TS after 60 days of cold storage and shelf life (SL) compared to 30 days of cold storage and 30 + SL, while NN107 maintained the same fragment profile across all time points evaluated. Our results suggest that these important differences in cell wall metabolism during cold storage could be related to the differential berry firmness observed between these contrasting table grape varieties.

Published
2015
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39. Ecological niche modelling of Hemipteran insects in Cameroon; the paradox of a vector-borne transmission for Mycobacterium ulcerans, the causative agent of Buruli ulcer.

Author

Carolan K, Ebong SM, Garchitorena A, Landier J, Sanhueza D, Texier G, Marsollier L, Gall PL, Guégan JF, and Lo Seen D

Subjects
Animals, Buruli Ulcer epidemiology, Cameroon epidemiology, Humans, Buruli Ulcer transmission, Ecosystem, Geographic Mapping, Hemiptera, Insect Vectors microbiology, Mycobacterium ulcerans isolation & purification
Abstract

Background: The mode of transmission of the emerging neglected disease Buruli ulcer is unknown. Several potential transmission pathways have been proposed, such as amoebae, or transmission through food webs. Several lines of evidence have suggested that biting aquatic insects, Naucoridae and Belostomatidae, may act as vectors, however this proposal remains controversial., Materials and Methods: Herein, based on sampling in Cameroon, we construct an ecological niche model of these insects to describe their spatial distribution. We predict their distribution across West Africa, describe important environmental drivers of their abundance, and examine the correlation between their abundance and Buruli ulcer prevalence in the context of the Bradford-Hill guidelines., Results: We find a significant positive correlation between the abundance of the insects and the prevalence of Buruli ulcer. This correlation changes in space and time, it is significant in one Camerounese study region in (Akonolinga) and not other (Bankim). We discuss notable environmental differences between these regions., Conclusion: We interpret the presence of, and change in, this correlation as evidence (though not proof) that these insects may be locally important in the environmental persistence, or transmission, of Mycobacterium. ulcerans. This is consistent with the idea of M. ulcerans as a pathogen transmitted by multiple modes of infection, the importance of any one pathway changing from region to region, depending on the local environmental conditions.

Published
2014
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40. First detection of Mycobacterium ulcerans DNA in environmental samples from South America.

Author

Morris A, Gozlan R, Marion E, Marsollier L, Andreou D, Sanhueza D, Ruffine R, Couppié P, and Guégan JF

Subjects
Bacterial Proteins genetics, DNA Primers, DNA Transposable Elements, DNA, Bacterial genetics, French Guiana, Humans, Mycobacterium ulcerans genetics, Real-Time Polymerase Chain Reaction, DNA, Bacterial isolation & purification, Fresh Water microbiology, Mycobacterium ulcerans isolation & purification
Abstract

The occurrences of many environmentally-persistent and zoonotic infections are driven by ecosystem changes, which in turn are underpinned by land-use modifications that alter the governance of pathogen, biodiversity and human interactions. Our current understanding of these ecological changes on disease emergence however remains limited. Buruli ulcer is an emerging human skin disease caused by the mycobacterium, Mycobacterium ulcerans, for which the exact route of infection remains unclear. It can have a devastating impact on its human host, causing extensive necrosis of the skin and underlying tissue, often leading to permanent disability. The mycobacterium is associated with tropical aquatic environments and incidences of the disease are significantly higher on floodplains and where there is an increase of human aquatic activities. Although the disease has been previously diagnosed in South America, until now the presence of M. ulcerans DNA in the wild has only been identified in Australia where there have been significant outbreaks and in western and central regions of Africa where the disease is persistent. Here for the first time, we have identified the presence of the aetiological agent's DNA in environmental samples from South America. The DNA was positively identified using Real-time Polymerase Chain Reaction (PCR) on 163 environmental samples, taken from 23 freshwater bodies in French Guiana (Southern America), using primers for both IS2404 and for the ketoreductase-B domain of the M. ulcerans mycolactone polyketide synthase genes (KR). Five samples out of 163 were positive for both primers from three different water bodies. A further nine sites had low levels of IS2404 close to a standard CT of 35 and could potentially harbour M. ulcerans. The majority of our positive samples (8/14) came from filtered water. These results also reveal the Sinnamary River as a potential source of infection to humans.

Published
2014
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41. [Human T-lymphotropic virus I/II detection in Chilean patients from Sexually Transmitted Diseases clinics].

Author

Sanhueza D, Ramírez E, Navarrete N, Santander E, Garmendia ML, and Martínez MJ

Subjects
Adult, Aged, Chile epidemiology, Female, HTLV-I Infections transmission, HTLV-II Infections transmission, Human T-lymphotropic virus 1 immunology, Human T-lymphotropic virus 2 immunology, Humans, Male, Middle Aged, Prevalence, Seroepidemiologic Studies, Sexually Transmitted Diseases virology, HTLV-I Infections epidemiology, HTLV-II Infections epidemiology, Human T-lymphotropic virus 1 isolation & purification, Human T-lymphotropic virus 2 isolation & purification, Sexually Transmitted Diseases epidemiology
Abstract

Background: The human T-lymphotropic virus I (HTLV-I) causes spastic para-paresis and adult T-cell leukemia/lymphoma. It can be sexually transmitted and is highly prevalent in Central and South America., Aim: To study HTLV-I/IIprevalence in serum samples obtained from two Sexually Transmitted Diseases (STD) clinics., Material and Methods: Two hundred serum samples were randomly chosen from two reference STD centers of Santiago. The presence of specific HTLV I/II antibodies was detected by indirect immunofluorescence., Results: The analyzed samples came from participants aged 14 to 70 years. Forty nine percent were women and 76% were heterosexual. Only one of the 200 samples was positive (0.5%) and it came from a 70 year-old woman, housewife, with a stable single partner, a history of recurrent genital ulcers, VDRL (-) and positive serology for herpes simplex virus., Conclusions: The prevalence of HTLV-I found in this group is similar to that demonstrated in other populations in Chile, except for aboriginal populations, and similar to international STD studies. Our data is consistent with the low transmissibility by sexual contact.

Published
2012
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42. Expression of voltage-activated calcium channels in the early zebrafish embryo.

Author

Sanhueza D, Montoya A, Sierralta J, and Kukuljan M

Subjects
Animals, Calcium metabolism, Calcium Channel Blockers pharmacology, Calcium Channels drug effects, Calcium Channels genetics, Dihydropyridines pharmacology, Embryo, Nonmammalian drug effects, Embryo, Nonmammalian metabolism, Embryonic Development drug effects, Gene Expression Regulation, Developmental, Ion Channel Gating drug effects, Ion Channel Gating physiology, Zebrafish Proteins genetics, Calcium Channels biosynthesis, Embryonic Development physiology, Zebrafish embryology, Zebrafish Proteins biosynthesis
Abstract

Increases in cytosolic calcium concentrations regulate many cellular processes, including aspects of early development. Calcium release from intracellular stores and calcium entry through non-voltage-gated channels account for signalling in non-excitable cells, whereas voltage-gated calcium channels (CaV) are important in excitable cells. We report the expression of multiple transcripts of CaV, identified by its homology to other species, in the early embryo of the zebrafish, Danio rerio, at stages prior to the differentiation of excitable cells. CaV mRNAs and proteins were detected as early as the 2-cell stages, which indicate that they arise from both maternal and zygotic transcription. Exposure of embryos to pharmacological blockers of CaV does not perturb early development significantly, although late effects are appreciable. These results suggest that CaV may have a role in calcium homeostasis and control of cellular process during early embryonic development.

Published
2009
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